Your search keyword '"biocide resistance genes"' showing total 7 results

1. Molecular detection of quaternary ammonium compound resistance genes of Staphylococcus aureus from udder surface and mastitis milk of bovines

Author

S. Vignesh, R.L. Rateesh, K.C. Bipin, L. John, and P.M. Deepa

Subjects

s. aureus, udder surface, mastitis, ctab, minimum inhibitory concentration, biocide resistance genes, Animal biochemistry, QP501-801, Science (General), Q1-390

Abstract

Quaternary ammonium compounds (QAC) are widely used biocides in the field of medical and veterinary practice. Resistance to QACs is an emerging problem due to this widespread use. The present study was undertaken to detect the presence of genes that contribute to resistance to QACs in Staphylococcus aureus isolates obtained from udder surface and mastitis milk. A total 22 isolates of S. aureus were obtained from udder washings and milk of bovine mastitis cases. Among these, seventeen isolates were from udder wash samples and five isolates from clinical and subclinical cases of mastitis. Broth microdilution assay was performed to assess the minimum inhibitory concentration (MIC) of the isolates against Cetyltrimethylammonium bromide (CTAB), a QAC. Polymerase chain reaction (PCR) was done targeting qac A/B gene which codes for efflux pump which targets QACs. In the present study qac A/B gene was detected in seven out of 22 isolates of S. aureus. Three of these isolates were obtained from udder washings before milking and four, after milking. None of the S. aureus isolates from mastitis milk possessed the gene. The average minimum inhibitory concentration of qac A/B positive isolates against CTAB was 0.63 ± 0.55 μg/ml. The average MIC between qac A/B positive and negative isolates were statistically insignificant. The study points to the fact that multiple factors could be contributing to biocide resistance in S. aureus.

Published

2022

2. Distribution of Biocide Resistance Genes and Association with Clonal Complex Genotypes in Staphylococcus aureus Isolated from School-Age Children in Guangzhou

Author

Zhang C, Liang B, Xiong Z, Liang Z, Cai H, Zhong H, Xie Y, Liu X, Xie S, Lan F, and Zhou Z

Subjects

staphylococcus aureus, biocide resistance genes, qaca/b, children, chlorhexidine, mupirocin, biofilm formation, Infectious and parasitic diseases, RC109-216

Abstract

Chao Zhang,1,2,* Bingshao Liang,1,* Zhile Xiong,1,2 Zhuwei Liang,1,2 Hao Cai,1 Huamin Zhong,1 Yongqiang Xie,1 Yuanwei Xie,2 Xiaochun Liu,2 Shiying Xie,2 Fangjun Lan,2 Zhenwen Zhou2 1Clinical Laboratory, Guangzhou Women and Children’s Medical Center, Guangzhou Medical University, Guangzhou, Guangdong, People’s Republic of China; 2Clinical Laboratory, Longgang District Maternity and Child Healthcare Hospital, Shenzhen, Guangdong, People’s Republic of China*These authors contributed equally to this workCorrespondence: Zhenwen Zhou, Clinical Laboratory, Longgang District Maternity and Child Healthcare Hospital, Shenzhen, Guangdong, People’s Republic of China, Tel +86 13925097897, Email zzw6248@126.comPurpose: Chlorhexidine and mupirocin are often prescribed to children in affected communities to prevent colonization and transmission of Staphylococcus aureus, but this has led to an increasing rate of biocide resistance. In this study, we aimed to determine the distribution of biocide resistance genes among S. aureus isolates from school-age children in Guangzhou, investigate chlorhexidine gluconate and mupirocin susceptibility and clonal complex (CC) genotypes in strains carrying biocide-resistance genes, and further explore the role of biofilms in this resistance.Patients and Methods: Antibiotic resistance and multilocus sequence genotyping were performed on 722 S. aureus isolates from previous study. The distribution of nine biocide genes (qacA/B, mupA, mepA, sepA, norA, lmrS, smr, mupB, qacG) was determined by PCR. Isolates carrying qacA/B or mupA genes were further tested for susceptibility to chlorhexidine gluconate (CHG) and mupirocin and biofilm formation abilities.Results: The most prevalent of the nine biocide resistance genes were mepA (95.57%), followed by norA (78.81%), lmrS (77.01%), and sepA (58.17%). The qacG gene was not detected. Distribution of sepA was significantly decreased in CC30 and CC45 genotypes, and presence of sepA was associated with resistance to antibiotics such as CLI, ERY, TCY, SXT, CIP, and LVX. In addition, 64 (94.1%, n=68) qacA/B+ isolates showed CHG resistance, 12 (100.0%, n=12) mupA+ isolates were mupirocin resistant, and 4 (80%, n=5) and 5 (100%, n=5) qacA/B+mupA+ isolates were CHG and mupirocin resistant, respectively. Of these 85 isolates, 98.8% (n=84) had different degrees of biofilm-forming abilities, which were positively associated with CHG and mupirocin resistance.Conclusion: The distribution of biocide resistance genes was associated with special CCs. The qacA/B and mupA genes are highly associated with resistance to CHG and mupirocin, and biofilm formation was found to contribute to this biocide resistance.Keywords: Staphylococcus aureus, biocide resistance genes, qacA/B, children, chlorhexidine, mupirocin, biofilm formation

Published

2022

3. Impacts of soybean agriculture on the resistome of the Amazonian soil.

Author

Cardenas Alegria, Oscar, Pires Quaresma, Marielle, Dias Dantas, Carlos Willian, Silva Guedes Lobato, Elaine Maria, de Oliveira Aragão, Andressa, Patroca da Silva, Sandro, Barros da Silva, Amanda Costa, Ribeiro Cruz, Ana Cecília, Jucá Ramos, Rommel Thiago, and Ribeiro Carneiro, Adriana

Subjects

MOBILE genetic elements, MONOCULTURE agriculture, FOREST soils, DRUG resistance in bacteria, FOREST biodiversity, HEAVY metals

Abstract

The soils of the Amazon are complex environments with different organisms cohabiting in continuous adaptation processes; this changes significantly when these environments are modified for the development of agricultural activities that alter the chemical, macro, and microbiological compositions. The metagenomic variations and the levels of the environmental impact of four different soil samples from the Amazon region were evaluated, emphasizing the resistome. Soil samples from the organic phase from the different forest, pasture, and transgenic soybean monocultures of 2-14 years old were collected in triplicate at each site. The samples were divided into two groups, and one group was pre-treated to obtain genetic material to perform sequencing for metagenomic analysis; another group carried out the chemical characterization of the soil, determining the pH, the content of cations, and heavy metals; these were carried out in addition to identifying with different databases the components of the microbiological communities, functional genes, antibiotic and biocide resistance genes. A greater diversity of antibiotic resistance genes was observed in the forest soil. In contrast, in monoculture soils, a large number of biocide resistance genes were evidenced, highlighting the diversity and abundance of crop soils, which showed better resistance to heavy metals than other compounds, with a possible dominance of resistance to iron due to the presence of the acn gene. For up to 600 different genes for resistance to antibiotics and 256 genes for biocides were identified, most of which were for heavy metals. The most prevalent was resistance to tetracycline, cephalosporin, penam, fluoroquinolone, chloramphenicol, carbapenem, macrolide, and aminoglycoside, providing evidence for the co-selection of these resistance genes in different soils. Furthermore, the influence of vegetation cover on the forest floor was notable as a protective factor against the impact of human contamination. Regarding chemical characterization, the presence of heavy metals, different stress response mechanisms in monoculture soils, and the abundance of mobile genetic elements in crop and pasture soils stand out. The elimination of the forest increases the diversity of genes for resistance to biocides, favoring the selection of genes for resistance to antibiotics in soils. [ABSTRACT FROM AUTHOR]

Published

2022

4. Impacts of soybean agriculture on the resistome of the Amazonian soil

Author

Oscar Cardenas Alegria, Marielle Pires Quaresma, Carlos Willian Dias Dantas, Elaine Maria Silva Guedes Lobato, Andressa de Oliveira Aragão, Sandro Patroca da Silva, Amanda Costa Barros da Silva, Ana Cecília Ribeiro Cruz, Rommel Thiago Jucá Ramos, and Adriana Ribeiro Carneiro

Subjects

antibiotic resistance genes, biocide resistance genes, heavy metals, metagenomic, Amazonia soils, Microbiology, QR1-502

Abstract

The soils of the Amazon are complex environments with different organisms cohabiting in continuous adaptation processes; this changes significantly when these environments are modified for the development of agricultural activities that alter the chemical, macro, and microbiological compositions. The metagenomic variations and the levels of the environmental impact of four different soil samples from the Amazon region were evaluated, emphasizing the resistome. Soil samples from the organic phase from the different forest, pasture, and transgenic soybean monocultures of 2–14 years old were collected in triplicate at each site. The samples were divided into two groups, and one group was pre-treated to obtain genetic material to perform sequencing for metagenomic analysis; another group carried out the chemical characterization of the soil, determining the pH, the content of cations, and heavy metals; these were carried out in addition to identifying with different databases the components of the microbiological communities, functional genes, antibiotic and biocide resistance genes. A greater diversity of antibiotic resistance genes was observed in the forest soil. In contrast, in monoculture soils, a large number of biocide resistance genes were evidenced, highlighting the diversity and abundance of crop soils, which showed better resistance to heavy metals than other compounds, with a possible dominance of resistance to iron due to the presence of the acn gene. For up to 600 different genes for resistance to antibiotics and 256 genes for biocides were identified, most of which were for heavy metals. The most prevalent was resistance to tetracycline, cephalosporin, penam, fluoroquinolone, chloramphenicol, carbapenem, macrolide, and aminoglycoside, providing evidence for the co-selection of these resistance genes in different soils. Furthermore, the influence of vegetation cover on the forest floor was notable as a protective factor against the impact of human contamination. Regarding chemical characterization, the presence of heavy metals, different stress response mechanisms in monoculture soils, and the abundance of mobile genetic elements in crop and pasture soils stand out. The elimination of the forest increases the diversity of genes for resistance to biocides, favoring the selection of genes for resistance to antibiotics in soils.

Published

2022

5. Gut microbiome and resistome changes during the first wave of the COVID-19 pandemic in comparison with pre-pandemic travel-related changes.

Author

Peng, Ye, Zhang, Dengwei, Chen, Ting, Xia, Yankai, Wu, Peng, Seto, Wai-Kay, Kozyrskyj, Anita L, Cowling, Benjamin J, Zhao, Jincun, and Tun, Hein M

Subjects

*COVID-19 pandemic, *GUT microbiome, *HAND sanitizers, *COVID-19, *DRUG resistance in bacteria

Published

2021

6. Frequency of biocide-resistant genes and susceptibility to chlorhexidine in high-level mupirocin-resistant, methicillin-resistant Staphylococcus aureus (MuH MRSA).

Author

Liu, Qingzhong, Zhao, Huanqiang, Han, Lizhong, Shu, Wen, Wu, Qiong, and Ni, Yuxing

Subjects

*BIOCIDES, *METHICILLIN-resistant staphylococcus aureus, *DISEASE susceptibility, *DRUG resistance, *MUPIROCIN, *CHLORHEXIDINE, *THERAPEUTICS

Abstract

The aim of this study was to determine the prevalence of biocide-resistant determinants and the susceptibility to chlorhexidine in high-level mupirocin-resistant, methicillin-resistant Staphylococcus aureus (MuH MRSA). Fifty-three MuH MRSA isolates were analyzed for plasmid-borne genes ( qacA / B , smr , qacG , qacH , and qacJ ) by polymerase chain reaction (PCR); for chromosome-mediated genes ( norA , norB , norC , mepA , mdeA , sepA , and sdrM ) by PCR and quantitative reverse transcription-PCR (qRT-PCR); and for susceptibility to chlorhexidine by MIC and minimum bactericidal concentration (MBC). Furthermore, disinfectant efficacy was tested in the presence of 3.0% bovine serum albumin (BSA) in MBC detection. The plasmid-borne genes qacA / B (83.0%) and smr (77.4%) and overexpressions of chromosome-mediated genes norA (49.0%) and norB (28.8%) were predominantly found in isolates studied, and 90.6% of the isolates revealed tolerance to chlorhexidine. In the presence of BSA, the average MBC of chlorhexidine for these isolates rose to 256 μg/mL. Altogether, our results suggest that surveillance of sensitivity to biocides among MuH MRSA isolates is essential for hospital infection control. [ABSTRACT FROM AUTHOR]

Published

2015

7. Comparing resistome profiles from anthropogenically impacted and non-impacted areas of two South Shetland Islands – Maritime Antarctica.

Author

Centurion, VB, Silva, JB, Duarte, AWF, Rosa, LH, and Oliveira, VM

Subjects

VOLCANIC soils, CRATER lakes, ISLANDS, HEAVY metals, MULTIDIMENSIONAL scaling, DRUG resistance in bacteria

Abstract

Whalers Bay, in Deception Island, has one of the most anthropogenically impacted areas in Maritime Antarctica. However, considering the volcanic nature (high concentrations of heavy metals) of Deception Island's soils, this putative anthropogenic impact should be carefully investigated. In this context, the objective of this study was to compare resistome profiles of impacted and non-impacted areas in Deception Island (Whalers Bay, Crater Lake, and Fumarole Bay) and Livingston Island (Hannah Point) in order to investigate the microbiome tolerance/resistance mechanisms selected as a function of environmental drivers. Metagenomics was used to search for genes conferring resistance/tolerance to antibiotics, biocides, and heavy metals. Whalers Bay has a greater diversity of antibiotic, biocide, and heavy metal resistance classes found in its microbiomes. However, Hannah Point, at Livingston Island, has a greater abundance of antibiotic and biocide resistance/tolerance genes. The microbiome of Deception Island's non-impacted areas (Crater Lake and Fumarole Bay) showed resistance/tolerance genes almost entirely to heavy metals. Pb was found in higher concentrations in Whalers Bay soil in comparison to the other areas, indicating human contamination. The non-metric multidimensional scaling (NMDS) analysis revealed that Pb concentrations influenced resistome profiles in Whalers Bay soil. Despite the effect of Pb on the microbial communities of Whalers Bay, most heavy metal concentrations did not have a significant impact on resistome genes, suggesting that the volcanic soil heavy metal concentration of Deception Island has little biological influence. [Display omitted] • Impacted areas have more resistance/tolerance genes than non-impacted areas. • Pb strongly influenced the resistome profile of Whalers Bay. • A gain in antibiotic resistances was not observed in the Fumarole site where biocides are likely produced. • Heavy metal concentrations in volcanic island-sites are equivalent to the ones in non-volcanic sites. [ABSTRACT FROM AUTHOR]

Published

2022